Nail-printing device

ABSTRACT

The present disclosure is applied to cosmetics techniques and provides a nail-printing device. The nail-printing device includes a printing head and a drying mechanism. The printing head is configured to move along a set path to spray nails under driving of a driving mechanism; the drying mechanism is configured to dry the nails in a spraying process, disposed on a peripheral side of the printing head, and configured to synchronously move with the printing head.

CROSS-REFERENCES TO RELATED APPLICATIONS

This application claims priority to Chinese patent application No. 201821444381.2 filed on Sep. 4, 2018, disclosure of which is incorporated herein by reference in its entirety.

TECHNICAL FIELD

The present disclosure relates to cosmetics techniques, and, in particular, to a nail-printing device.

BACKGROUND

A nail-printing machine is a painting device capable of drawing patterns on natural nails and artificial nails, and is mainly composed of a touch screen, a controller and a printing component. When the nail-printing machine is in operation, user's fingers are put into the nail-printing machine, and patterns are sprayed on the nails by the printing component. The general nail-printing machine has the function of spraying the patterns on the nails, but after spraying the patterns on the nails, it is also necessary to dry the paint on the nails, and then an additional dryer needs to be used, which is not only cumbersome in operation, but also takes more time and takes up extra space on the workbench.

SUMMARY

The object of the present disclosure is to overcome the above-mentioned deficiencies of the related art and to provide a nail-printing device which aims to dry painted nails while painting the nails.

The present disclosure is implemented as follows:

A nail-printing device includes: a printing head and a drying mechanism.

The printing head is configured to move along a set path driven to spay nails under driving of a driving mechanism.

The drying mechanism is configured to dry the nails in a spraying process and disposed on a peripheral side of the printing head and synchronously moves with the printing head.

In one embodiment, the drying mechanism includes at least one light source assembly, the light source assembly includes an ultraviolet lamp and an aluminum substrate; and the ultraviolet lamp is disposed on the aluminum substrate.

In one embodiment, the at least one light source assembly comprises an even number of light source assemblies, which are symmetrically arranged on left and right sides of the printing head.

In one embodiment, the light source assemblies are detachably fixed to both sides of the printing head.

In one embodiment, the nail-printing device also includes: an ink cartridge and an ink cartridge bracket; wherein the printing head is disposed at one end of a bottom surface of the ink cartridge; the ink cartridge is fixed to the ink cartridge bracket; a support table is disposed on each of left and right sides of an area of the ink cartridge bracket corresponding to the printing head, and the support table is configured to support the light source assemblies.

In one embodiment, one end of the aluminum substrate is provided with a bump; a front plate perpendicular to a plane of the support table is disposed on one end of the support table connected to the ink cartridge bracket, and the front plate is provided with a groove which accommodates the bump to be inserted and limits a movement of the bump.

In one embodiment, the support table is provided with a retaining post for restricting a movement of the aluminum substrate, and the aluminum substrate is provided with a slot in an area corresponding to the retaining post.

In one embodiment, an illumination hole is disposed in an area of the support table corresponding to the ultraviolet lamp; and when each of the light source assemblies is fixed on the support table, the ultraviolet lamp protrudes from the illumination hole.

In one embodiment, one end of the aluminum substrate away from the bump is fixed to the support table by screws.

In one embodiment, a center of the support table is recessed to form a receiving cavity, and the aluminum substrate is disposed above the receiving cavity.

The present disclosure realizes the effect of spraying on the nails while drying and solidifying the painted nails by configuring the drying mechanism to move synchronously with the movement of the printing head. The drying mechanism moves along with the printing head, so that the sprayed nails can obtain effective illumination as soon as possible to improve the curing efficiency. In addition, utilizing the nail-printing device of the embodiment, there is no need to purchase a separate dryer, which saves working space. At the same time, between the step of spraying the nails and the step of drying and solidifying the sprayed snails, the fingers are not required to move, the risk of pattern deformation due to finger movement is reduced, and thus the quality of the nail-printing is ensured. Configuring the drying mechanism to move synchronously with the movement of the printing head makes the time of spraying nails and the time of drying nails overlap , saves the time of the entire nail-printing work, and improves the work efficiency, thus improving the user's service satisfaction.

BRIEF DESCRIPTION OF DRAWINGS

To illustrate solutions in embodiments of the present disclosure more clearly, the accompanying drawings used in description of the embodiments will be briefly described below. Apparently, the accompanying drawings described below illustrate part of embodiments of the present disclosure, and those of ordinary skill in the art may obtain other accompanying drawings based on the accompanying drawings described below on the premise that no creative work is done.

FIG. 1 is a structural diagram of a nail-printing device according to an embodiment of the present disclosure;

FIG. 2 is a structural diagram of structural cooperation of a substrate and a support table according to an embodiment of the present disclosure;

FIG. 3 is a structural diagram of a drying mechanism according to an embodiment of the present disclosure.

Description of reference numerals: 100, ink cartridge; 200, drying mechanism; 210, light source assembly; 211, aluminum substrate; 2111, bump; 2112, slot; 212, ultraviolet lamp; 300, ink cartridge bracket; 310, support table; 311, retaining post; 312, illumination aperture; 320, front plate; 321, groove; 322, through hole; and 400, slide rail.

DETAILED DESCRIPTION

In order to make the purpose, technical solutions and advantages of the present disclosure clearer, hereinafter the present disclosure will be further described in detail in conjunction with the drawings and embodiments. It will be understood that the embodiments described herein are merely illustrative of the invention application and are not intended to limit the invention application.

It is to be noted that when an element is referred to as being “fixed to” or “disposed on” another element, it can be either directly on another or indirectly on another. When an element is referred to as being “connected to” another element, it can be directly or indirectly connected to another element.

It is also to be noted that in embodiments of the present disclosure, according to the XYZ rectangular coordinate system established in FIG. 1, a side in the positive direction of the X-axis is defined as the front side, and a side in the negative direction of the X-axis is defined as the rear side; a side in the positive direction of the Y-axis is defined as the left side, and a side in the negative direction of the Y-axis is defined as the right side; a side in the positive direction of the Z-axis is defined as the upper side, and a side in the negative direction of the Z-axis is defined as the lower side.

It is also noted that orientation terms such as the left, right, upper, and lower in the embodiments of the present disclosure are only relative concepts or reference to the normal use state of the product, and are not considered as restrictive.

Referring to FIG. 1 to FIG. 3, the embodiment provides a nail-printing device including a printing head (not shown in figures) and a drying mechanism 200, the printing head is configured to move along a set path under driving of the driving mechanism to spray nails, and the set path may be a movement path of the printing head along the slide rail 400 driven by the driving mechanism. The driving mechanism may include a driving motor, and a direct current (DC) motor is preferable. The drying mechanism 200 is used for drying the nails in the spraying process. The drying mechanism 200 is disposed on a peripheral side of the printing head and synchronously moves with the printing head. The drying mechanism 200 may be disposed on the left side of the printing head, on the right side of the printing head or at the front end of the printing head, as long as the direction of the light is just toward the nails. The printing head is usually disposed at the bottom end of the ink cartridge 100. When in printing, the ink cartridge 100 performs a reciprocating movement in the printing area under the driving of the driving mechanism, and the ink is ejected from the printing head for spraying and printing during the movement of the ink cartridge 100. The driving mechanism may include the (DC) motor, a belt and a plurality of gears, and the belt drives the printing head to move along the slide rail 400. There are various implementations for the driving mechanism, which are not the invention point of the technical solution, and will not be described in detail herein.

The present disclosure realizes the effect of spraying on the nails while drying and solidifying the sprayed nails by configuring the drying mechanism 200 to move synchronously with the movement of the printing head. The drying mechanism 200 moves with the printing head, and thus when the printing head sprays the nails, the drying mechanism enables the nails in spraying to obtain effective illumination as soon as possible to improve the curing efficiency. In addition, utilizing the nail-printing device of the embodiment, there is no need to purchase a separate dryer, which saves working space. At the same time, between the step of spraying the nails and the step of drying and solidifying the sprayed snails, the fingers are not required to move, the risk of pattern deformation due to finger movement is reduced, and thus the quality of the nail-painting is ensured. Configuring the drying mechanism 200 to move synchronously with the movement of the printing head makes the spraying time and the drying time overlap, saves the time of the entire nail-printing work, and improves the work efficiency, thereby improving the user's service satisfaction.

Referring to FIG. 3, the drying mechanism 200 of the present embodiment includes at least one light source assembly 210. The light source assembly 210 includes an ultraviolet lamp 212 and an aluminum substrate 211. The ultraviolet lamp 212 is disposed on the lower surface of the aluminum substrate 211.

The ultraviolet lamp 212 acts as a fast curing on the painted nail. The aluminum substrate 211 is made of aluminum material, which has good thermal conductivity and reduces the influence of heat concentration of light source on the performance and life of the ultraviolet lamp 212.

Further, an even number of the light source assemblies 210 are symmetrically arranged on the left and right sides of the printing head. When the printing head moves from the right side to the left side of the nails, the ultraviolet lamp 212 on the left side of the printing head illuminates the nails firstly; and as the printing head moves to the left, the ultraviolet lamp 212 on the left side of the printing head gradually moves away from the nails, and the ultraviolet lamp 212 on the right side of the printing head gradually approaches to the nails and illuminates the nails. The printing head performs the reciprocating movement in a nail area to spray the nails. The ultraviolet lamp 212 on the left side of the printing head and the ultraviolet lamp 212 on the right side of the printing head irradiate the nails in the painting alternately, improving the drying efficiency.

Referring to FIG. 2, the light source assemblies 210 are detachably fixed to both sides of the printing head. During the installation of the light source assemblies 210, the ultraviolet lamp 212 is mounted on the aluminum substrate 211 by screws or by thermal adhesive firstly, and then the aluminum substrate 211 is mounted on the printing head by screws or by thermal adhesive. The specific fixing manner of the light source assemblies is not limited herein. The ultraviolet lamp 212 is small in size, and if directly mounted on the printing head, the ultraviolet lamp 212 is limited to operate inconveniently by the structure of the printing head. The ultraviolet lamp 212 is placed on the aluminum substrate 211, and the aluminum substrate 211 and the printing head are designed in a fit connection, improving the mounting convenience. The light source assemblies 210 are detachably fixed to both sides of the printing head to facilitate replacement of a broken ultraviolet lamp 212.

Referring to FIG. 1 and FIG. 2, in an embodiment, the nail-printing device further includes an ink cartridge 100 and an ink cartridge bracket 300. The printing head is disposed at one end of the bottom surface of the ink cartridge 100, and the ink cartridge 100 is fixed to the ink cartridge bracket 300. A support table 310 is disposed on each of left and right sides of an area of the ink cartridge bracket 300 corresponding to the printing head, and is used for supporting the light source assemblies 210. The support table 310 is disposed on each of both sides of the area of the ink cartridge bracket 300 corresponding to the printing head, and is close to the printing head but does not affect the spraying of the printing head, achieving a better drying effect on the nails in spraying; and the structure of the support table 310 is also more stable. In this embodiment, the driving mechanism drives the ink cartridge bracket 300 to move along the slide rail 400, and the ink cartridge bracket 300 drives the ink cartridge 100 to perform a reciprocating movement in the printing area for printing. In some embodiments, the support table 310 and the ink cartridge bracket 300 are integrally formed.

In this embodiment, one end of the aluminum substrate 211 is provided with a bump 2111. A front plate 320 perpendicular to a plane of the support table 310 is disposed on one end of the support table 310 connected to the ink cartridge bracket 300. The front plate 320 is provided with a groove 321 which accommodates the bump 2111 to be inserted and limits a movement of the bump 2111. The groove 321 is applied to restrict the aluminum substrate 211 to move back and forth and restrict the front end of the aluminum substrate 211 to move left and right.

The front plate 320 is provided with a through hole 322 below the groove 321. The width of the through hole 322 in a left-to-right direction is greater than the width of the groove 321. When the bump 2111 on the aluminum substrate 211 is inserted into the groove 321, the bump 2111 at the front end of the aluminum substrate 211 is inserted into the through hole 322 firstly, and then the aluminum substrate 211 is placed flatly. At this moment, the bump 2111 fits in the groove 321. The installation is quick and easy.

The support table 310 is provided with an illumination hole 312 in an area corresponding to the ultraviolet lamp 212. When each of the light source assemblies 210 is fixed on the support table 310, the ultraviolet lamp 212 protrudes from the illumination hole 312. The irradiation hole 312 has a protective effect on the ultraviolet lamp 212 without blocking the light, and prevents other hard objects from colliding with the ultraviolet lamp to cause damage of the ultraviolet lamp.

A center of the support table 310 is recessed to form a receiving cavity (not shown in figures), and the aluminum substrate 211 is disposed above the receiving cavity. When the aluminum substrate 211 is fixed above the accommodating cavity, the ultraviolet lamp 212 on the aluminum substrate 211 passes through the illuminating hole 312, and part of a body of the ultraviolet lamp 212 is located in the receiving cavity.

One end of the aluminum substrate 211 away from the bump 2111 is fixed to the support table 310 by screws. The screws and the bump 2111 together serve as two fixed points of the aluminum substrate 211, and lengthening the distance between the two stress points properly is advantageous for improving the stability of mounting of the aluminum substrate 211 and provides sufficient spaces for the operation of the screws.

In the process of installation, the bump 2111 of the aluminum substrate 211 is inserted obliquely downward into the through hole 322 firstly, and then the aluminum substrate 211 is laid on the support table 310 flatly, meanwhile the bump 2111 enters into the groove 321 which limits the displacement of the bump 2111. Finally, the aluminum substrate 211 is fixed on the support table 310 by the screws, and the installation of the aluminum substrate 211 is completed. The installation of the light source assemblies 210 is simple and quick.

Referring to FIG. 2 again, the support table 310 is provided with a retaining post 311 for restricting the movement of the aluminum substrate 211. A slot 2112 is disposed on in an area of the aluminum substrate 211 corresponding to the retaining post 311.

Further, the aluminum substrate 211 is correspondingly provided with two retaining posts 311, and the retaining posts 311 of the aluminum substrate 211 are symmetrically arranged on the left and right sides of the aluminum substrate 211.

The configuration of the retaining posts 311 and slot 2112 is convenient for installation. Specifically, after the bump 2111 of the aluminum substrate 211 is inserted into the through hole 322, the presence of the retaining posts 311 and the slot 2112 directs the installer to mount the aluminum substrate 211 between the two retaining posts 311 and limits the left and right of the aluminum substrate 211 firstly, and then the slot 2112 is aligned with the retaining post 311 to fix the front and rear positions of the aluminum substrate 211, that is, the retaining posts 311 and the slot 2112 have an anchoring effect on the aluminum substrate 211. Then, the aluminum substrate 211 is placed on the support table 310 flatly, and the bump 2111 at the front end of the aluminum substrate 211 naturally enters the groove 321 without manual alignment. At this moment, the screw hole (not shown in the figures) on the aluminum substrate 211 and the studs (not shown in the figures) on the support table 310 are just aligned, thereby improving the ease of installation.

The above are only optional embodiments of the present disclosure and are not intended to limit the present disclosure. Any modifications, equivalent substitutions, improvements and the like within the spirit and principle of the present disclosure are within the scope of the present disclosure. 

What is claimed is:
 1. A nail-printing device, comprising: a printing head configured to move along a set path to spay nails under driving of a driving mechanism; and a drying mechanism configured to dry the nails in a spraying process and disposed on a peripheral side of the printing head and synchronously moves with the printing head.
 2. The nail-printing device of claim 1, wherein the drying mechanism comprises at least one light source assembly, the light source assembly comprises an ultraviolet lamp and an aluminum substrate; and the ultraviolet lamp is disposed on the aluminum substrate.
 3. The nail-printing device of claim 2, wherein the at least one light source assembly comprises an even number of light source assemblies, which are symmetrically arranged on left and right sides of the printing head.
 4. The nail-printing device of claim 3, wherein the light source assemblies are detachably fixed to both sides of the printing head.
 5. The nail-printing device of claim 2, further comprising an ink cartridge and an ink cartridge bracket, wherein, the printing head is disposed at one end of a bottom surface of the ink cartridge; the ink cartridge is fixed to the ink cartridge bracket; a support table is disposed on each of left and right sides of an area of the ink cartridge bracket corresponding to the printing head, and the support table is configured to support the light source assemblies.
 6. The nail-printing device of claim 5, wherein one end of the aluminum substrate is provided with a bump; a front plate perpendicular to a plane of the support table is disposed on one end of the support table connected to the ink cartridge bracket, and the front plate is provided with a groove which accommodates the bump to be inserted and limits a movement of the bump.
 7. The nail-printing device of claim 5, wherein the support table is provided with a retaining post for restricting a movement of the aluminum substrate, and the aluminum substrate is provided with a slot in an area corresponding to the retaining post.
 8. The nail-printing device of claim 5, wherein an illumination hole is disposed in an area of the support table corresponding to the ultraviolet lamp; and when each of the light source assemblies is fixed on the support table, the ultraviolet lamp protrudes from the illumination hole.
 9. The nail-printing device of claim 6, wherein one end of the aluminum substrate away from the bump is fixed to the support table by screws.
 10. The nail-printing device of claim 8, wherein a center of the support table is recessed to form a receiving cavity, and the aluminum substrate is disposed above the receiving cavity.
 11. The nail-printing device of claim 5, wherein the support table and the ink cartridge bracket are integrally formed.
 12. The nail-printing device of claim 6, wherein the front plate is provided with a through hole below the groove, a width of the through hole in a left-to-right direction is greater than a width of the groove.
 13. The nail-printing device of claim 3, further comprising an ink cartridge and an ink cartridge bracket, wherein, the printing head is disposed at one end of a bottom surface of the ink cartridge; the ink cartridge is fixed to the ink cartridge bracket; a support table is disposed on each of left and right sides of an area of the ink cartridge bracket corresponding to the printing head, and the support table is configured to support the light source assemblies.
 14. The nail-printing device of claim 4, further comprising an ink cartridge and an ink cartridge bracket, wherein, the printing head is disposed at one end of a bottom surface of the ink cartridge; the ink cartridge is fixed to the ink cartridge bracket; a support table is disposed on each of left and right sides of an area of the ink cartridge bracket corresponding to the printing head, and the support table is configured to support the light source assemblies. 